Transformations in Properties of Indian Barnyard Millet Starch as Induced by Ultra‐Sonication and Gamma Irradiation

Starch Pub Date : 2024-03-16 DOI:10.1002/star.202300218
Smita Dimri, Sukhcharn Singh
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Abstract

This study aims to assess the effect of physical modification techniques on the properties of millet starch. The starch isolated from barnyard millet (Echinochloa frumentacea) is subjected to ultrasonication (20 kHz; 30 and 60 min) and gamma irradiation (5 and 10 kGy). The protein content decreases slightly (by 2.5–3.8%) with gamma irradiation and significantly (by 5.7–6.9%) with ultrasonication. As compared to the native starch (20.56%), the amylose content of ultrasonicated starch is significantly higher (21.42% and 21.88%), while it is significantly lower (19.73% and 19.18%) for gamma‐irradiated starch. The swelling power of the native starch (13.57%) increases significantly with ultrasonication (14.21% and 14.33%) treatment; while it decreases significantly with gamma irradiation (13.17% and 12.25%) treatment. The solubility increases to 11.23%, 11.19%, 12.09%, and 13.31% from 10.45%, with both modifications. The peak viscosity of modified starches decreases significantly (2872 and 2700 cP) as compared to the native starch (3832 cP). The starches exhibit a greater value for storage modulus (G′) as compared to loss modulus (G″), reflecting their elastic nature. These transformations in the microstructure, gelatinization, and physicochemical properties of native starch can further be explored for food and textile industrial applications.

Abstract Image

超声波和伽马辐照诱导的印度稗子淀粉性质变化
本研究旨在评估物理改性技术对小米淀粉特性的影响。对从稗子(Echinochloa frumentacea)中分离出来的淀粉进行超声波处理(20 kHz;30 和 60 分钟)和伽马射线辐照(5 和 10 kGy)。经伽马射线辐照后,蛋白质含量略有下降(2.5%-3.8%),经超声波辐照后,蛋白质含量显著下降(5.7%-6.9%)。与原生淀粉(20.56%)相比,超声淀粉的直链淀粉含量明显较高(21.42% 和 21.88%),而伽马辐照淀粉的直链淀粉含量则明显较低(19.73% 和 19.18%)。原生淀粉的溶胀力(13.57%)在超声处理(14.21% 和 14.33%)后明显增加;而在伽玛辐照处理(13.17% 和 12.25%)后明显降低。两种改性方法的溶解度都从 10.45% 增加到 11.23%、11.19%、12.09% 和 13.31%。与原生淀粉(3832 cP)相比,改性淀粉的峰值粘度明显下降(2872 和 2700 cP)。与损耗模量(G″)相比,淀粉的储存模量(G′)值更大,这反映了它们的弹性性质。原生淀粉在微观结构、糊化和理化性质方面的这些转变可进一步探索其在食品和纺织工业中的应用。
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